KR940011420B1 - Tunnel timbering method - Google Patents

Abstract

The construction method minimizes the tunnel deformation by coupling circular steel supprts in a digging direction by the subsidence prevention beams connectable in a line. The construction method comprises the steps of: excavating the upper part of the tunnel by a predefined length; connecting a plurality of circular supports (2) to beam support plates (8) with bolts (12); connecting one beam (1) to another beam (1) with bolts (11) over the floor of the upper part of the tunnel; excavating the lower part of the tunnel by a predefined length; connecting a plurality of circular supports (2') to beam support plates (8') with bolts.

Description

Beam subsidence prevention method for underground tunnel construction

1 is an explanatory diagram briefly explaining a state in which settlement occurs because steel ribs are temporarily not supported in a conventional beam installation.

2 is a view showing the tunnel support and installation of the present invention.

3 is a detailed view of the portion A of Figure 2 as a beam installation connection diagram as an embodiment for explaining the connection state of the anti-sedimentation beam in the present invention.

4 is a view illustrating a tunnel beam and beam installation according to the present invention.

* Explanation of symbols for main parts of the drawings

1: sinking prevention (support) beam 2: upper half support

2 ': Lower end support 2, 2': Tunnel support support

5: earth to be excavated 6: bottom part of the upper half of the excavation

8: support plate 8 ': beam support plate

9: beam connecting plate 10: fastening hole

11: bolt 12: bolt

20: flat sheet of surface

The present invention relates to a method for preventing the settlement of the support for the turnnel to prevent settlement when installing the support for drilling the underground tunnel to support the tunnel.

In the conventional case, by welding a piece of plate thickness of a certain thickness as a beam to prevent settlement, to support each support only, and therefore, it is not possible to install a safe and accurate support, which is dangerous in the construction method and sufficient support is not secured.

The present invention is to solve the problem, in the construction method of installing the beam to prevent settlement to install the support while drilling the tunnel, first excavating the upper half of the tunnel by a predetermined length first, and then each of the plurality of annular support one by one The support plate formed at the lower end of the support and the upper and lower support plates of the anti-sedimentation beam connected to each of the supports are bolted together, and the anti-sedimentation beam is connected to one or more bolt holes and bolts on the left and right sides. It is possible to be connected to each other by a longitudinal line, and also connected to the bottom of the upper half of the excavation portion to be excavated first, a plurality of in a row, connecting the upper jibo, and then excavating the lower half excavation by a predetermined length, and then installed Attach the bottom beam to the bottom of the beam, and then lower Tunnel support can be installed safely and accurately by alternately repeating the work of connecting the beams for preventing subsidence of each support, and the work of excavating the lower half of the predetermined intervals. It is to provide a beam beam beam beam installation method, characterized in that the tunnel support settlement.

In general, when digging a tunnel by connecting the annular beam and the other annular beam in the middle of the tunnel excavation in the middle, it is possible to prevent the settlement. In other words, in tunnel excavation, an annular iron beam is often installed to reinforce the tunnel excavation surface. In this case, the tunnel is divided into upper and lower stages to excavate step by step, and the excavation is performed while installing the annular beam in half section after the upper excavation. .

However, since the annular beam installed in the state of excavation of the upper excavation part is installed in the state of unevenness and rock cutting surface, it appears to be stabilized only after 3 ~ 4 days after the peak settlement of the tunnel continues. After installing a few days, the deformation was often caused. In addition, when the lower excavation, the annular beam temporarily floats in the air (see FIG. 1B), and the lower annular beam is installed and the tunnel is completely excavated, and the settlement continues until the cross section is closed. It appears as the main cause of city collapse.

Since the sinking prevention beam is installed at the same time as the upper excavation and the annular iron beam, it prevents the tipping settlement caused by unevenness or ground unevenness, and also becomes an important reinforcing material that can remove the sinking factor during the lower excavation.

In the conventional case, for example, when the excavation is performed by NATM method, the annular iron support is installed by reinforcing the tunnel excavation surface, and the support provided in the state of excavation of the upper excavation part (half-section) is not closely contacted with the excavation surface for 3 to 4 days. Subsidence of tunnels continues, especially in soft layers with leaks, which contribute to long-term settlement.

In addition, when the bottom excavation, the beam is temporarily floating in the air, causing deformation of the tunnel and causing collapse. Up to now, when overdraft has been used, it has been tried to prevent temporary settlement by supporting shockcrete or supporting wood.

Therefore, the present invention by fastening the annular steel supports by the anti-sedimentation beams that can be interconnected in a row in the excavation direction, in order to prevent the causes of the above-described tip settlement and the resulting collapse, thereby preventing the tip settlement by jibo And it is an object to provide a method for minimizing the deformation of the tunnel by supporting the whole as a unitary state without generating the floating state in the air even when the estuary excavation.

DETAILED DESCRIPTION OF THE INVENTION The present invention will be described below with reference to the drawings.

As shown in FIG. 1, when the tunnel is installed in the tunnel, the upper half section 3 is excavated in the excavation direction (→) while the upper beam section 2 (2 ') is installed in the tunnel. In the same way, the jibo is installed at a predetermined interval like the ribs.

At this time, as shown in part B of FIG. 1, the upper half support 2 when the lower half support 2 ', which is symmetrical with the upper half support 2', is to be fixedly installed, is in the same state as B of FIG. .

In this case, conventionally as shown in Fig. 1B while taking the method of excavating the remaining soil 5 in the lower half while supporting the plate 20 on the upper line of the upper plate of the upper half of the support A (SLLine) in the upper half. In the case of excavation, the upper half support (2) does not drop the upper support (2) in a short time because the shotcrete is placed on the tunnel roof so that the tip of the support is not lowered or fallen. As shown in FIG. 1, the upper half 7 is excavated after the lower half is excavated. In this case, the vibration occurs at the point B in FIG. Eventually, there is no slight support force, and the jibo 2, which is finally floating in the air due to the jibo's own weight, gradually sinks.

As shown in FIG. 4, the present invention adopts a method in which a plurality of anti-sedimentation beams 1 which can be interconnected laterally as shown in FIG. 2 are connected to the respective supports 2, 2 '. The first half is excavated first, and then the bottom 6 of the upper half excavation is evenly flattened, and then a flat plate or the like is laid on this bottom to align the anti-sedimentation 1 flatly thereon. This connection is made by connecting the connecting plate 9 which forms a vertical plate welded at both ends of the anti-sedimentation beam 1 and the connecting plate 9 of the other adjacent anti-sedimentation beam 1 through one or more fastening holes 10. (11) It is carried out by fastening so that a plurality of beams 1 are connected laterally to each other.

In the connected anti-sedimentation beam 1, as shown in FIG. 3, the support plate 8 is horizontally welded to the beam 1 at the top and the bottom, and the support 2 is supported on the support plate 8. It is also fixed and connected close to the vertical by welding.

The upper half support 2 in the excavated tunnel is supported by the net and shockcrete attached to the ceiling to prevent rockfall in the ceiling when the upper support 2 is installed in the tunnel as shown in FIG. (2) is temporarily suspended in the air, but at this time, the bottom of the support (2) in the state of roughly aligned on the above-described support settlement prevention beam (1) secured the bottom plane by the upper half excavation in advance and connected in series At least one bolt hole is formed by aligning the beam support plate 8 'which is joined to the horizontally supported support plate 8, which is already welded to each other, and bolted to the upper and lower beams 2, and the beam for preventing settlement. One by one to install the gulto-beam installation-gulto-beam installation. In other words, one of the beam subsidence prevention beams (2) (2 ') is installed, and the next pitted and the next order beams (2) (2').

After the upper support 2 and the support settlement prevention beam 1 are connected to each other, the upper half support 2 and the beam 1 are connected at points A and B of FIG. 1, and thus, at the point B of FIG. As you can see, the upper half support (2) is supported even by the support beam by the multiple beams (1) transversely connected, even if the support (2) suspended by the shock ceiling in the tunnel ceiling, and immediately after the lower point, The support 2 'is sequentially connected to the lower end of the beam 1 one by one as described above. Thus, the upper and lower support beams 2 and 2 'are symmetrically connected to each other with the beam subsidence prevention beam 1 as the center to form the upper and lower supports in the tunnel.

When the supporting beams 2, 2 'and the beam 1 are all installed, the walls of the tunnel are all made of concrete walls, so both the supporting beams and the beams are buried under the ground to form a skeleton of the tunnel. It is to construct a complete and solid tunnel support.

According to the present invention, the conventional tunnel support can not only settle the stability of the installation and can prevent settlement, so the tip (top) settlement of the support can be prevented and the collapse caused by this, and the support state is stable. Minimize deformations and, in addition, the accuracy and simplicity of the work is extremely useful.

Claims (1)

In the method of installing the anti-sedimentation beam in order to install the support while drilling the tunnel, firstly excavating the upper half of the tunnel by a predetermined length, and then supporting plate formed with a plurality of annular supports at the bottom of each support Each of them is bolted together with the upper and lower support plates of the anti-sedimentation beam connected to each support, and the anti-sedimentation beam is connected to each other by one or more bolt holes and bolts on the left and right sides. Connecting the settlement beam to the bottom of the first upper excavation to be excavated in a plurality of in a row, connecting the upper jibo first, excavating the lower half excavation by a predetermined interval and then connecting the lower support to the bottom of the installed anti-sedimentation support beam And excavate the lower half excavation by the next predetermined interval and connect the Tunnel support subsidence, which allows safe and accurate installation of tunnel support, by alternately repeating and installing the beam subsidence prevention beams and digging the lower excavation sections at predetermined intervals. Prevention beam installation method.